Qualifying Photonics for the Space Environment Iain McKenzie Trieste 20/02/2015 ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 1
Qualifying Microphotonic Devices for Space 15 years service life No maintenance Guarantee of end of life performance Mechanical vibration Pyro-shock Space radiation Displacement damage TID Charging due to interaction with charged particles Thermal Large temperature variations Vacuum Outgassing Contamination Packaging ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 2
NASA vs. Telcordia Test Requirements Due to the usage of MIL-STD-883 in Telcordia specifications, the random vibration environmental parameters and duration are of greater intensity than is required for space flight launch vehicles. Reliability of Optical Fiber Modulators for Space Flight Environments, M. Ott, et al, NASA Parts and Packaging Program Report, Electronic Parts Project, IPPAQ Task Report, October 2002. ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 3
Radiation Effects on Fibre Optic Sensor Hardware Induced attenuation in optical fibres Refractive index change in glass (FBG shift) Impact on fibre optic coating (FBG shift) Displacement damage semiconductor laser (increased laser threshold, decreased slope efficiency) Displacement damage in detector (increased dark current, reduced efficiency) SEE laser driver sensitivity ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 4
Radiation induced attenuation [db] Other Parameters that Effect Darkening Stress in the fibre Photo bleaching Photobleaching test for two Standard Telecom fiber samples (97 m) on the same spool with low and high optical power coupled in the fibers 7 6 5 Low Power (1 uw) High Power (~10 mw) Average dose rate = 449 Gy/h Total dose = 1000 Gy Wavelength = 980 nm 4 3 Fibres outside irradiation setup 2 1 0 0 200 400 600 800 1000 1200 Accumulated dose [Gy] ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 5
Radiation-induced attenuation [db] Radiation-induced attenuation [db] Radiation-induced attenuation [db] Radiation Darkening of Optical Fibers 12 11 10 9 8 Radiation-induced attenuation in some COTS fiber samples (100 metres) Average dose rate = 157 Gy/h, Total dose = 1000 Gy Draka MaxCap 300 Radhard optimized Draka MaxCap 300 Standard Draka MaxCap 300 Radhard INO 712A1 Telecom Standard Telecom Radhard 9 8 7 6 452 Gy/h 157 Gy/h 452 Gy/h Fit 157 Gy/h Fit Radiation-induced attenuation fits and extrapolations at 850 nm of the Draka MaxCap 300 Radhard Optimized fiber exposed to gamma radiations 20.4 Gy/h extrapolation 0.06 Gy/h extrapolation 7 6 5 4 3 2 1 0 0 200 400 600 800 1000 1200 Accumulated dose [Gy] fiber is not irradiated in this area, time of recovery = 60 minutes 5 4 3 2 1 0 0 100 200 300 400 500 600 700 800 900 1000 Accumulated dose [Gy] 50 45 40 35 Radiation-induced attenuation at 850 nm performed at an average temperature of -17 C Average dose rate = 429 Gy/h Wavelength = 850 nm Courtesy of INO And SpaceFibre Project 30 25 20 15 Draka MaxCap 300 Radhard Optimized Telecom Standard Draka MaxCap 300 Radhard Optimized (21 C) 10 5 0 0 200 400 600 800 1000 1200 Accumulated dose [Gy] Average dose rate = 429 Gy/h Wavelength = 850 nm ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 6
Peak Shift, nm. FBG Wavelength Shift Due to Radiation Applications include laser wavelength stabilisation, filtering, and sensing FBGs show a shift in peak wavelength with radiation due partly to change in n Changes for 1Mrad are on the order of some 10s pm Radiation hardness improves with good selection of fibre, FBG writing approach, annealing process (thermal and UV), even coating type. Femto second laser writing approaches so better radiation hardness 0.045 0.040 0.035 0.030 0.025 0.020 0.015 0.010 0.005 0.000-0.005 CH 10 0 50 100 150 200 Time, h T10-1 T10-2 T10-3 Results courtesy of SCK-CEN ESA contract. ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 7
Radiation Testing of SOI Devices Co-60 TID testing of SOI ring resonator devices Total dose 300kRad 0.39 pm/krad shift of resonance peaks Important to note that ~100pm/K is expected due to thermally induced refractive index changes. ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 8
Vacuum Material Selection Outgassing Contamination (hermetic sealing) Packaging and Mounting Hermetic Sealing required for active optoelectronic components (lasers and detectors) problems with moisture in package. ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 9
SMOS Qualification Program SMOS Mission (Soil Moisture and Ocean Salinity) Payload Module: Microwave Imaging Radiometer with Aperture Synthesis (MIRAS) COTS components used: Modulight AlGaInAs 1300nm FP laser diodes, Hamamatsu InGaAs PIN photodiodes, Gooch and Housego Fiber Splitters Gore FO Cable Diamond AVIM connectors ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 10
Qualification Approach Highest quality level for commercial off-the-shelf optoelectronic components is according to Telcordia standard or similar. Subsea is a good starting point very high reliability requirements 20 year life expectancy Space qualified components usually not existing A full qualification exercise as per ESCC specification not feasible due to - time and cost constraints - industry is too fast moving What to do? ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 11
Qualification Approach Partial evaluation of 2 alternatives Full qualification of 1 FL plus samples + costs are moderate (only one qualification) + risk of qualification failure low impact on overall schedule is high as procurement has to be performed for the samples and after successful evaluation for the FL again In order to reduce risk: Evaluation phase with two possible COTS candidates for each component (subjected to most critical tests, constructional analysis, manufacturer assessment) ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 12
Evaluation Process Procurement from two different suppliers Detailed constructional analysis Critical selection and performance tests Standard evaluation tests should be designed to stress components and reveal failure mechanisms. Depending on schedule and budget this may not be possible. Visit and make assessment of supplier s manufacturing procedures Based on final assessment procure flight lot ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 13
Flight Lot Acceptance Testing (LAT) Selection testing (Evaluation phase): 1. - vibration, shock 2. - thermal vacuum cycling 3. - radiation (gamma & proton) 4. - constructional analysis & manufacturer assessment Flight lot screening / qualification 1. - extended burn-in 2. - acceptance thermal cycling 3. - measurement at high and low temperature Flight lot acceptance testing 1. - thermal cycling, vibration, shock and radiation 2. - life test 3. - bending, fibre pull, mating, DPA ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 14
Lessons Learnt from SMOS Qual. Most manufacturers are not willing to customise their process for a small volume order. Be fast, products change fast telecom market. Smaller manufacturers show greater interest and higher flexibility to customise their manufacturing and/or disclose the exact processing Be very accurate in manufacturer assessment (which activities are outsourced, how is the visibility) ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 15
Evaluation and Qualification of AVIM FO Connector Project Scope: Evaluate and qualify connector set AVIM Document and write specifications for connector sets and assemblies Qualify a patchcord patchcord=fiber+cable+connectors-set+assemblyprocess ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 16
Evaluation Test Plan (ETP) Purpose of an ETP is to test resistance limits to understand safety factors and define Qualification values Scope: Break things and doing FA look why and when Find the extreme temperature and define Tmin and Tmax for the long term tests and cycles. Evaluate limit in vibration and shock Evaluate survivability to special condition (dust, salt mist,..) Configuration Tested: PM fiber Fujikura SM.15-P-8/125-UV/UV-400 1550nm, acrylate coating Loose tube OD=1mm PEEK Victrex 450G Pigtails configuration (two connectors assembled when tested) ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 17
Evaluation Test Plan ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 18
Temperature Step Stress ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 19
Random Vibration Step Stress ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 20
Shock Step Stress ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 21
Mating Demating Test ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 22
Qualification Values Temperature cycles 100 cycles AVIM -55 C to +125 C Mini-AVIM -55 C to +85 C Vibration 35gRMS, 20..2000Hz Shock 500g Mating durability 100 matingdemating Torsion 3N Static side load 0.2 N Cable retention 5N Endurance 1000h at Tmax ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 23
Qualification Test Plan ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 24
Rocked Defect Investigation Strange failure mode on ISS fibers observed in 1999 ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 25
Night lights from space Thank you for your attention. ESA Presentation Iain McKenzie Trieste 20/02/2015 TEC-MME ESA ESTEC Slide 26